CN112472655A

CN112472655A - Preparation method of pearl powder sun cream

Info

Publication number: CN112472655A
Application number: CN202011157983.1A
Authority: CN
Inventors: 刘赛; 秦嘉慧
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-26
Filing date: 2020-10-26
Publication date: 2021-03-12

Abstract

The invention relates to the technical field of preparation of pearl powder sun cream, in particular to a preparation method of pearl powder sun cream, wherein a grinding device used in the method comprises a box body, a charging barrel, a vertical plate and a controller; an opening is formed in the upper part of the box body, a discharge hole is formed in the lower part of the box body, and the discharge hole is circular; the lower part of the box body is fixedly connected with a support leg; the support legs are symmetrically distributed on two sides of the discharge hole; a screen box is fixedly connected between the two inner walls of the box body; according to the grinding device used in the preparation method of the pearl powder sun cream, the vertical plate is driven by the motor II to scrape the bottom and the inner wall of the material cylinder, and the vertical plate and the scraping block are matched with each other in a sliding manner along the sliding strip under the action of gravity, so that pearl powder in the material cylinder can be completely poured out, the pearl powder cannot be left in the material cylinder, the waste of the pearl powder in the material cylinder is avoided, the utilization rate of the pearl powder is improved, and the preparation cost of the pearl powder sun cream is reduced.

Description

Preparation method of pearl powder sun cream

Technical Field

The invention relates to the technical field of pearl powder sun cream preparation, in particular to a preparation method of pearl powder sun cream.

Background

Ultraviolet rays in the sun are the main cause of skin darkening and aging, and are generally resisted by applying sunscreen cream to the skin; the action principle of the sunscreen cream is to isolate the skin from ultraviolet rays, so that the skin is prevented from being sunburned; the pearl is a classic beauty medicinal material since ancient times, and the traditional medical treatises such as Ben Cao gang mu, Ming Yi Bie Lu and Kao Cao mu indicate that the pearl has the effects of calming the nerves, detoxifying, retaining youthful looks, moistening and tendering skin and the like, so that the skin is glossy and white; pearl powder processed from pearl is the most common way of applying pearl to beautify the face; the pearl powder can solve the problems of facial oil and dead skin, and particularly has the effects of whitening skin and resisting aging by enhancing the activity of SOD (superoxide dismutase), so that the pearl powder can be used as an additive of sunscreen cream to achieve the auxiliary effects of moistening and whitening; after the pearl powder is prepared, the pearl powder is adhered to the inner wall of the charging barrel due to the fact that air humidity is high, the pearl powder adhered to the inner wall of the charging barrel cannot be poured out, pearl powder waste is caused, the utilization rate of the pearl powder is low, and the cost of the pearl powder sun cream is increased.

Some technical schemes related to a preparation method of the pearl powder sun cream also appear in the prior art, for example, a Chinese patent with the application number of CN201811084963.9 discloses a preparation method of the pearl powder sun cream, which comprises the following steps: 1. adding pearls and purified water in equal mass ratio into a ball mill, then adding zirconium balls, and starting the ball mill to crush the pearls to obtain a first mixture; the mass ratio of the pearls to the zirconium balls is 0.8-1.2: 4; the zirconium balls are formed by mixing three specifications of zirconium beads with diameters of 2mm, 5mm and 10mm according to a mass ratio of 1:1: 2; 2. taking out the first mixture, standing, removing the supernatant, and drying at the temperature of 100-120 ℃; the technical method can ensure that the environment of a pearl powder production area reaches the D-grade requirement and can also ensure that the environment reaches the requirement of 200-mesh superfine powder under the condition of low cost, but the technical scheme does not solve the problems that the pearl powder adhered to the inner wall of the charging barrel cannot be poured out due to high air humidity and low utilization rate of the pearl powder and the cost of the pearl powder sun cream is increased, and the limitation of the scheme is caused.

In view of this, in order to overcome the above technical problems, the invention provides a preparation method of a pearl powder sunscreen cream, which adopts a special grinding device to solve the above technical problems.

Disclosure of Invention

In order to make up for the defects of the prior art, the grinding device used in the invention drives the vertical plate to scrape at the bottom and the inner wall of the material cylinder through the second motor, and then the vertical plate and the scraping block are matched with each other in a sliding manner along the sliding strip under the action of gravity, so that the pearl powder in the material cylinder can be completely poured out, the pearl powder cannot be left in the material cylinder, the waste of the pearl powder in the material cylinder is avoided, the utilization rate of the pearl powder is improved, and the preparation cost of the pearl powder sunscreen cream is reduced.

The technical scheme adopted by the invention for solving the technical problems is as follows: the preparation method of the pearl powder sun cream comprises the following steps:

s1: pretreatment: debugging each element in the grinding device by a worker, and then removing impurities and drying each element of the grinding device; cleaning, sterilizing and drying the special-shaped pearls; the grinding device is debugged, so that the stability of the grinding device in motion is ensured; the impurity removal treatment is carried out on the grinding device, so that the pearl powder is prevented from being polluted, and the pearl powder is prevented from being stuck on internal elements of the grinding device to cause the waste of the pearl powder by carrying out the drying treatment on the grinding device;

s2: grinding pearls: pouring special-shaped pearls along a feeding hole in a grinding device, driving a blade to crush the pearls to form pearl powder by a first motor, enabling the pearl powder to sequentially pass through meshes and a discharging hole to flow into a charging barrel, obliquely pouring the charging barrel into a stirring kettle by a worker, driving a vertical plate to scrape the bottom and the inner wall of the charging barrel by a second motor, scraping two end faces of the vertical plate by a scraping block under the action of gravity, and pouring the pearl powder in the charging barrel into the stirring kettle under the action of the vertical plate and the scraping block; the vertical plate is driven by the motor II to scrape at the bottom and the inner wall of the material cylinder and then is matched with the scraping block in a sliding manner along the sliding strip under the action of gravity, so that pearl powder in the material cylinder can be completely poured out, the pearl powder cannot remain in the material cylinder, the waste of the pearl powder in the material cylinder is avoided, the utilization rate of the pearl powder is improved, and the preparation cost of the pearl powder sunscreen cream is reduced;

s3: mixing and forming: cleaning Aloe, sterilizing, oven drying, grinding into paste, adding Aloe, white oil, water, essence and antiseptic into stirring kettle, controlling the temperature of the stirring kettle at 25-35 deg.C and air pressure at 3-5MPa, stirring for 1-2 hr, and taking out to obtain Margarita powder sunscreen cream; mucopolysaccharide, aloin, etc. in aloe gel form an invisible film on skin surface, which can effectively shield and isolate ultraviolet rays, thereby inhibiting melanin pigmentation caused by ultraviolet rays;

wherein, the grinding device used in S1-S2 comprises a box body, a charging barrel, a vertical plate and a controller; an opening is formed in the upper part of the box body, a discharge hole is formed in the lower part of the box body, and the discharge hole is circular; the lower part of the box body is fixedly connected with a support leg; the support legs are symmetrically distributed on two sides of the discharge hole; a screen box is fixedly connected between the two inner walls of the box body; the cross section of the screen box is in a water drop shape, a feed inlet is formed in the upper part of the screen box, meshes are formed in the outer wall of the screen box, and a rotating shaft is rotatably connected between the two inner walls of the screen box; the outer wall of the rotating shaft is rotatably connected with a blade; the blades are uniformly distributed on the outer wall of the rotating shaft; a first motor is installed on the outer wall of the screen box; the output shaft of the first motor is connected with one end of the rotating shaft; the two inner walls of the box body are fixedly connected with inclined plates; one end of the inclined plate is arranged close to the discharge hole, and an included angle is formed between the end surface of the inclined plate and the horizontal plane; a charging barrel is arranged right below the discharge port; the outer wall of the charging barrel is fixedly connected with a handle, and the outer wall of the charging barrel is rotatably connected with an annular strip; the edge of the annular strip is arranged into a tooth shape; a second motor is arranged on the outer wall of the charging barrel; the output shaft of the second motor is connected with a gear; the gear engages the edge of the annular strip; the upper end of the annular strip is provided with an L-shaped rod; one end of the L-shaped rod extends to the center of the charging barrel, and one end of the L-shaped rod is fixedly connected with a vertical plate; the vertical plate is positioned inside the charging barrel; the lower end of the vertical plate is in contact with the barrel bottom of the charging barrel, one side of the vertical plate is in contact with the inner wall of the charging barrel, and two end faces of the vertical plate are fixedly connected with sliding strips; the sliding strip is connected with the scraping block in a sliding manner; the controller is used for controlling the grinding device to automatically operate;

when the pearl powder sun cream is used, the pearl powder is adhered to the inner wall of the charging barrel due to high air humidity, so that the pearl powder adhered to the inner wall of the charging barrel cannot be poured out, the pearl powder is wasted, the utilization rate of the pearl powder is low, and the cost of the pearl powder sun cream is increased; therefore, in the invention, the operator starts the controller to control the first motor to rotate, the first motor drives the fixedly connected rotating shaft to rotate, so that the blades are driven to rotate through the rotating shaft, the operator dries the special-shaped pearl and then enters the screen box along the feeding hole, the rotating blades can collide with the pearl, so that the pearl is in a powder state after being collided, and then flows out along the meshes of the screen box, one part of pearl powder flowing out of the meshes can flow along the inner wall of the box body, the other part of the pearl powder can fall on the inclined plate, the whole box body can be driven to vibrate after the blades collide with the pearl powder, so that the pearl powder on the inner wall of the box body and the pearl powder on the inclined plate flow out along the discharging hole under the vibration effect, the pearl powder cannot remain on the inner wall of the box body, the waste of the pearl powder, the first motor is closed, pearl powder stops flowing out of the discharge port, the pearl powder in the material cylinder is poured into the stirring kettle, and resource waste can be caused by the pearl powder remaining in the material cylinder; according to the pearl powder sun cream, the vertical plate is driven by the motor II to scrape at the bottom and the inner wall of the material cylinder, and then the vertical plate and the scraping block are matched in a sliding manner along the sliding strip under the action of gravity, so that pearl powder in the material cylinder can be completely poured out, the pearl powder cannot be remained in the material cylinder, the waste of the pearl powder in the material cylinder is avoided, the utilization rate of the pearl powder is improved, and the preparation cost of the pearl powder sun cream is reduced.

Preferably, a first rectangular groove is formed in the inner wall of the charging barrel; the first rectangular grooves are uniformly distributed on the inner wall of the charging barrel; a second rectangular groove is formed in one side of each vertical plate; the second rectangular groove is connected with the knocking block in a sliding mode, and a spring is arranged in the second rectangular groove; one end of the spring is connected with the bottom of the second rectangular groove, and the other end of the spring is connected with the knocking block; one end of the knocking block, which is close to the material barrel, is provided with a chamfer, and the knocking block can be driven by the vertical plate to be clamped in the first rectangular groove; when the pearl powder sun cream is used, the pearl powder in the charging barrel can only fall off under the action of gravity, and the falling efficiency is limited, so that the preparation efficiency of the pearl powder is influenced, and the preparation efficiency of the pearl powder sun cream is further influenced; therefore, when the motor drives the vertical plate to move, the vertical plate can drive the knocking block to move, when the knocking block moves to the inner wall of the material barrel without the first rectangular groove, the knocking block is abutted to the inner wall of the material barrel under the elastic action of the spring, when the knocking block moves to the inner wall with the first rectangular groove, the knocking block is clamped in the first rectangular groove under the elastic action of the spring, so that the knocking block is clamped in the first rectangular groove, the knocking block can collide with the bottom of the first rectangular groove, the material barrel vibrates after being impacted, the pearl powder in the material barrel falls off more quickly under the vibration action, and the chamfering is arranged at one end, close to the material barrel, of the knocking block, so that the stability of the vertical plate driving the knocking block to rotate is guaranteed; the pearl powder in the material cylinder is scraped by the vertical plate and the vertical plate drives the knocking block to collide with the material cylinder, so that the pearl powder in the material cylinder falls off more quickly under the action of vibration, the preparation efficiency of the pearl powder is improved, and the preparation efficiency of the pearl powder sunscreen cream is improved.

Preferably, the groove depth between two adjacent first rectangular grooves is different; when the pearl powder feeding device is used, the knocking block collides with the bottom of the first rectangular groove under the action of the spring, the deeper the first rectangular groove is in the stroke range of the knocking block, the longer the distance between the knocking block and the bottom of the first rectangular groove is, and therefore the larger the impact force of the knocking block on the bottom of the first rectangular groove is, the different the groove depths between the two adjacent first rectangular grooves are, so that the different impact forces generated by the collision of the two adjacent first rectangular grooves are different, the different vibration amplitudes generated by the collision of the feed cylinder are different, the pearl powder in the feed cylinder is enabled to fall off more quickly under the action of different vibration forces, and the falling efficiency of the pearl powder in the feed cylinder is further improved.

Preferably, the other side of the vertical plate is fixedly connected with a stirring rod; the stirring rods are uniformly distributed on the other side of the vertical plate; the stirring rod is Y-shaped; when the pearl powder collecting device is used, in the process of collecting pearl powder by the charging barrel, the pearl powder falls into the charging barrel due to high air humidity, the caking phenomenon is easy to occur in the charging barrel, meanwhile, the vertical plate can not stir the pearl powder in the charging barrel, and only can push the pearl powder in the charging barrel, so that the vertical plate has limitation; therefore, in the process that the pearl powder at the discharge port falls into the feed cylinder, the motor drives the vertical plate to move, and the vertical plate can drive the fixedly connected stirring rod to move, so that the pearl powder in the feed cylinder cannot be agglomerated under the action of stirring of the stirring rod, the quality of the pearl powder is improved, and the preparation effect of the pearl powder sun cream is improved.

Preferably, a first bulge is arranged on the stirring rod; the first bulges are semicircular and are randomly distributed on the surface of the stirring rod; during the use, the riser drives the stirring rod motion in-process, is provided with a arch on through the stirring rod to increased the frictional force between stirring rod and the pearl powder, compared original stirring rod smooth surface, improved the effect that the pearl powder was stirred to the stirring rod, make its range of motion of pearl powder obtain the increase under the effect of stirring rod, further improved the quality of pearl powder in the feed cylinder.

Preferably, the end part of the stirring rod is fixedly connected with a baffle; the end surface of the baffle is parallel to the end surface of the vertical plate; during the use, the riser drives the stirring rod motion in-process, and the baffle motion that the stirring rod drives and links firmly has increased the area of contact of stirring rod and pearl powder through the baffle, compares original single stirring rod and mixs, and the baffle can drive more pearl powder motions for the effect of pearl powder further obtains the reinforcing in the feed cylinder is mixd to the stirring rod, further prevents the pearl powder caking in the feed cylinder.

Preferably, the edge of the baffle is twisted with the elastic plate through a torsion spring; the end face of the elastic plate is parallel to the end face of the baffle under the action of the torsion spring; during the use, the stirring rod drives the baffle motion in-process, the baffle can drive the diving board motion of wrench joint, the diving board can produce the resistance effect at the feed cylinder internal motion, make the diving board can round the edge of baffle and turn round towards the direction wrench movement opposite with the direction of motion, staff's rethread controller control No. two motor stall, thereby make the diving board recover under the effect of torsional spring, the diving board resumes original state in-process can get rid of pearl powder on every side, make the pearl powder get rid of on the inner wall of feed cylinder under the effect of diving board, further make the pearl powder smash, still have the effect that prevents the pearl powder caking in the feed cylinder simultaneously.

Preferably, the end face of the baffle is fixedly connected with a fin plate; the fin plates are vertical to the end surfaces of the baffle plates, and the two end surfaces of the fin plates face the corresponding elastic plates; the fins are arranged in a triangle; during the use, the stirring rod drives the baffle motion in-process, and the baffle can drive the fin motion that links firmly to reach the effect of reposition of redundant personnel to the pearl powder through the fin, make the quick reposition of redundant personnel to the diving board around the fin of pearl powder on, make the pearl powder's of gathering around the diving board volume obtain increasing, further improved the availability factor of diving board.

Preferably, an elastic rope is fixedly connected to one end face of the elastic plate; the end part of the elastic rope is fixedly connected with a disc; the end face of the disc is arranged towards the elastic rope; during the use, the baffle drives the shell plate motion in-process of wrench joint, the shell plate can drive the motion of elastic cord, the elastic cord can drive the disc motion that links firmly, thereby make the shell plate pass through elastic cord and drive the disc motion, the disc produces the resistance effect in the motion process, make the disc produce a reaction force to the elastic cord, the elastic cord receives the disc pulling and can lengthen down, after the shell plate stop motion, the elastic cord can stimulate the disc and be close to the shell plate motion, thereby make the disc drive pearl powder and shell plate emergence striking around, the crushing effect of pearl powder has further been improved, still make the shell plate receive to produce after the striking and rock simultaneously, make the shell plate drive motion around, the stirring effect of pearl powder has been improved, make the difficult caking of pearl powder.

Preferably, the edge of the disc is provided with a bent edge; the bent edge is arranged towards the elastic rope; when the pearl powder stirring device is used, the elastic ropes drive the disc to move, the edges of the disc are provided with the bent edges, so that the contact area of the disc and pearl powder is increased, the disc can drive more pearl powder to move, and the stirring effect of the pearl powder in the material cylinder is improved.

Preferably, a second bulge is arranged at the edge of the disc; the second bulges are uniformly distributed on the periphery of the disc and are arranged in a conical shape; during the use, the elastic rope pulling disc is close to the diving board in-process, is provided with the arch No. two through the edge at the disc to reduced the area of contact of disc with the diving board, and then increased the dynamics that the disc struck the diving board, make the diving board receive the range increase of rocking after the vibrations, further improved the practical application effect of diving board.

The invention has the following beneficial effects:

1. according to the grinding device, the vertical plate is driven by the motor II to scrape at the bottom and the inner wall of the material cylinder, and then the vertical plate and the scraping block are matched in a sliding mode along the sliding strip under the action of gravity, so that pearl powder in the material cylinder can be completely poured out, the pearl powder cannot be left in the material cylinder, the waste of the pearl powder in the material cylinder is avoided, the utilization rate of the pearl powder is improved, and the preparation cost of the pearl powder sun cream is reduced.

2. The grinding device scrapes the pearl powder in the material cylinder through the vertical plate, and the vertical plate drives the knocking block to collide with the material cylinder to match with the pearl powder, so that the pearl powder in the material cylinder can fall off more quickly under the action of vibration, the preparation efficiency of the pearl powder is improved, and the preparation efficiency of the pearl powder sunscreen cream is improved.

3. According to the grinding device used in the invention, the groove depths between two adjacent first rectangular grooves are different, so that the impact force generated by the collision of the two adjacent first rectangular grooves is different, the amplitude of vibration generated by the collision of the charging barrel is different, the pearl powder in the charging barrel falls off more quickly under the action of different vibration forces, and the falling efficiency of the pearl powder in the charging barrel is further improved.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a flow chart of the present invention;

FIG. 2 is a perspective view of the grinding apparatus of the present invention;

FIG. 3 is a cross-sectional view of the grinding apparatus of the present invention;

FIG. 4 is an enlarged view at A in FIG. 3;

FIG. 5 is a perspective view of a cartridge in the grinding apparatus of the present invention;

FIG. 6 is a cross-sectional view of a cartridge in the grinding apparatus of the present invention;

FIG. 7 is a perspective view of a baffle in the grinding apparatus of the present invention;

FIG. 8 is an enlarged view at B of FIG. 7;

in the figure: the device comprises a box body 1, a discharge hole 11, support legs 12, an inclined plate 13, a charging barrel 2, a handle 21, an annular strip 22, a second motor 23, a gear 24, an L-shaped rod 25, a first rectangular groove 26, a vertical plate 3, a sliding strip 31, a scraping block 32, a second rectangular groove 33, a knocking block 34, a spring 35, a screen box 4, a feed inlet 41, a rotating shaft 42, blades 43, a first motor 44, a stirring rod 5, a first bulge 51, a baffle plate 52, a torsion spring 53, an elastic plate 54, a fin plate 55, an elastic rope 56, a disc 57 and a second bulge 58.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 8, the preparation method of the pearl powder sunscreen cream comprises the following steps:

s2: grinding pearls: pouring special-shaped pearls along a feeding hole 41 in a grinding device, driving a blade 43 to crush the pearls by a first motor 44 to form pearl powder, enabling the pearl powder to sequentially pass through meshes and a discharging hole 11 and flow into a charging barrel 2, obliquely pouring the charging barrel 2 into a stirring kettle by a worker, driving a vertical plate 3 by a second motor 23 to scrape the bottom and the inner wall of the charging barrel 2, scraping two end faces of the vertical plate 3 by a scraping block 32 under the action of gravity, and pouring the pearl powder in the charging barrel 2 into the stirring kettle under the action of the vertical plate 3 and the scraping block 32; the vertical plate 3 is driven by the second motor 23 to scrape at the bottom and the inner wall of the material cylinder 2, and then the vertical plate and the scraping block 32 are matched with each other in a sliding manner along the sliding strip 31 under the action of gravity, so that pearl powder in the material cylinder 2 can be completely poured out, the pearl powder cannot remain in the material cylinder 2, the waste of the pearl powder in the material cylinder 2 is avoided, the utilization rate of the pearl powder is improved, and the preparation cost of the pearl powder sunscreen cream is reduced;

wherein, the grinding device used in S1-S2 comprises a box body 1, a material cylinder 2, a vertical plate 3 and a controller; an opening is formed in the upper part of the box body 1, a discharge hole 11 is formed in the lower part of the box body 1, and the discharge hole 11 is circular; the lower part of the box body 1 is also fixedly connected with a supporting leg 12; the support legs 12 are symmetrically distributed on two sides of the discharge hole 11; a sieve box 4 is fixedly connected between the two inner walls of the box body 1; the cross section of the screen box 4 is in a water drop shape, the upper part of the screen box 4 is provided with a feed inlet 41, the outer wall of the screen box 4 is provided with meshes, and a rotating shaft 42 is rotatably connected between the two inner walls of the screen box 4; the outer wall of the rotating shaft 42 is rotatably connected with a blade 43; the blades 43 are uniformly distributed on the outer wall of the rotating shaft 42; a first motor 44 is arranged on the outer wall of the sieve box 4; the output shaft of the first motor 44 is connected with one end of the rotating shaft 42; the two inner walls of the box body 1 are fixedly connected with inclined plates 13; one end of the inclined plate 13 is arranged close to the discharge hole 11, and an included angle is formed between the end surface of the inclined plate 13 and the horizontal plane; a charging barrel 2 is arranged right below the discharge port 11; the outer wall of the charging barrel 2 is fixedly connected with a handle 21, and the outer wall of the charging barrel 2 is rotatably connected with an annular strip 22; the edge of the annular strip 22 is provided with a tooth shape; a second motor 23 is arranged on the outer wall of the charging barrel 2; the output shaft of the second motor 23 is connected with a gear 24; the gear 24 engages the edge of the annular strip 22; the upper end of the annular strip 22 is provided with an L-shaped rod 25; one end of the L-shaped rod 25 extends to the center of the charging barrel 2, and one end of the L-shaped rod 25 is fixedly connected with the vertical plate 3; the vertical plate 3 is positioned inside the barrel 2; the lower end of the vertical plate 3 is contacted with the barrel bottom of the charging barrel 2, one side of the vertical plate 3 is contacted with the inner wall of the charging barrel 2, and two end faces of the vertical plate 3 are fixedly connected with sliding strips 31; the sliding strip 31 is connected with the scraping block 32 in a sliding mode; the controller is used for controlling the grinding device to automatically operate;

when the pearl powder sun cream is used, the pearl powder is adhered to the inner wall of the charging barrel 2 due to high air humidity, so that the pearl powder adhered to the inner wall of the charging barrel 2 cannot be poured out, the pearl powder is wasted, the utilization rate of the pearl powder is low, and the cost of the pearl powder sun cream is increased; therefore, in the invention, the controller is started by a worker to control the first motor 44 to rotate, the first motor 44 drives the fixedly connected rotating shaft 42 to rotate, so that the rotating shaft 42 drives the blade 43 to rotate, the worker dries the special-shaped pearl and then enters the screen box 4 along the feeding hole 41, the rotating blade 43 collides with the pearl, the pearl is in powder form after being collided, and then flows out along the meshes of the screen box 4, one part of the pearl powder flowing out from the meshes flows along the inner wall of the box body 1, the other part of the pearl powder falls on the inclined plate 13, and the whole box body 1 is driven to vibrate after the blade 43 collides with the pearl powder, so that the pearl powder on the inner wall of the box body 1 and the pearl powder on the inclined plate 13 flow out along the discharging hole 11 under the vibration effect, the pearl powder cannot remain on the inner wall of the box body 1, the pearl powder cannot be wasted, and, after the feed cylinder 2 is filled with pearl powder, the first motor 44 is turned off to stop the pearl powder from flowing out of the discharge port 11, the pearl powder in the feed cylinder 2 is poured into the stirring kettle, and the second motor 23 drives the fixedly connected gear 24 to rotate because the residual pearl powder in the feed cylinder 2 can cause resource waste, so that the engaged annular strip 22 is driven by the gear 24 to rotate along the outer wall of the charging barrel 2, the rotation of the annular strip 22 drives the vertical plate 3 to rotate by the L-shaped rod 25, so that the vertical plate 3 scrapes the inner wall and the bottom of the charging barrel 2 under the action of the second motor 23, so that the pearl powder in the charging barrel 2 is stuck on the vertical plate 3, after the working personnel downwards puts the opening of the charging barrel 2, the scraping block 32 slides along the sliding strip 31 under the action of gravity, therefore, the pearl powder on the two end surfaces of the vertical plate 3 is scraped by the scraping block 32, so that the pearl powder in the charging barrel 2 can be poured out; according to the invention, the vertical plate 3 is driven by the second motor 23 to scrape at the bottom and the inner wall of the material cylinder 2, and then the vertical plate and the scraping block 32 are matched with each other in a sliding manner along the sliding strip 31 under the action of gravity, so that pearl powder in the material cylinder 2 can be completely poured out, the pearl powder cannot remain in the material cylinder 2, the waste of the pearl powder in the material cylinder 2 is further avoided, the utilization rate of the pearl powder is improved, and the preparation cost of the pearl powder sunscreen cream is further reduced.

As an embodiment of the present invention, a first rectangular groove 26 is disposed on the inner wall of the charging barrel 2; the first rectangular grooves 26 are uniformly distributed on the inner wall of the charging barrel 2; a second rectangular groove 33 is formed in one side of the vertical plate 3; the second rectangular groove 33 is connected with a knocking block 34 in a sliding mode, and a spring 35 is arranged in the second rectangular groove 33; one end of the spring 35 is connected with the bottom of the second rectangular groove 33, and the other end of the spring is connected with the knocking block 34; one end of the knocking block 34, which is close to the charging barrel 2, is provided with a chamfer, and the knocking block 34 can be driven by the vertical plate 3 to be clamped in the first rectangular groove 26; when the pearl powder sun cream is used, the pearl powder in the charging barrel 2 can only fall off under the action of gravity, and the falling efficiency is limited, so that the preparation efficiency of the pearl powder is influenced, and the preparation efficiency of the pearl powder sun cream is further influenced; therefore, in the process that the motor drives the vertical plate 3 to move, the vertical plate 3 can drive the knocking block 34 to move, when the knocking block 34 moves to the inner wall of the material barrel 2 without the first rectangular groove 26, the knocking block 34 is abutted to the inner wall of the material barrel 2 under the elastic action of the spring 35, when the knocking block 34 moves to the inner wall with the first rectangular groove 26, the knocking block 34 is clamped in the first rectangular groove 26 under the elastic action of the spring 35, in the process that the knocking block 34 is clamped in the first rectangular groove 26, the knocking block 34 can collide with the bottom of the first rectangular groove 26, the material barrel 2 is vibrated after being impacted, pearl powder in the material barrel 2 falls off more quickly under the vibration action, and the stability that the vertical plate 3 drives the knocking block 34 to rotate is ensured by arranging a chamfer at one end, close to the material barrel 2, of the knocking block 34; the pearl powder in the material cylinder 2 is scraped by the vertical plate 3, and the vertical plate 3 drives the knocking block 34 to collide with the material cylinder 2, so that the pearl powder in the material cylinder 2 falls off more quickly under the action of vibration, the preparation efficiency of the pearl powder is improved, and the preparation efficiency of the pearl powder sunscreen cream is improved.

As an embodiment of the present invention, the groove depth between two adjacent first rectangular grooves 26 is different; when the pearl powder feeding device is used, the knocking block 34 is impacted with the bottom of the first rectangular groove 26 under the action of the spring 35, the deeper the first rectangular groove 26 is in the stroke range of the knocking block 34, the longer the distance between the knocking block 34 and the bottom of the first rectangular groove 26 is, and therefore the impact force of the knocking block 34 on the bottom of the first rectangular groove 26 is larger, the different the depth of the groove between two adjacent first rectangular grooves 26 are, the different impact forces generated by the impact of the two adjacent first rectangular grooves 26 are different, the different vibration amplitudes generated by the impact on the material cylinder 2 are different, the pearl powder in the material cylinder 2 is enabled to fall off more quickly under the action of different vibration forces, and the falling efficiency of the pearl powder in the material cylinder 2 is further improved.

As an embodiment of the invention, the other side of the vertical plate 3 is fixedly connected with a stirring rod 5; the stirring rods 5 are uniformly distributed on the other side of the vertical plate 3; the stirring rod 5 is Y-shaped; when the pearl powder collecting device is used, in the process of collecting pearl powder by the charging barrel 2, the pearl powder falls into the charging barrel 2 due to high air humidity, the caking phenomenon is easy to occur in the charging barrel 2, meanwhile, the vertical plate 3 can not stir the pearl powder in the charging barrel 2 and can only push the pearl powder in the charging barrel 2, so that the vertical plate 3 has limitation; therefore, in the process that the pearl powder at the discharge port 11 falls into the feed cylinder 2, the motor drives the vertical plate 3 to move, and the vertical plate 3 can drive the fixedly connected stirring rod 5 to move, so that the pearl powder in the feed cylinder 2 cannot be agglomerated under the stirring action of the stirring rod 5, the quality of the pearl powder is improved, and the preparation effect of the pearl powder sun cream is improved.

As an embodiment of the invention, the stirring rod 5 is provided with a first bulge 51; the first bulges 51 are semicircular, and the first bulges 51 are randomly distributed on the surface of the stirring rod 5; during the use, riser 3 drives the 5 motion in-process of stirring rod, through being provided with a arch 51 on the stirring rod 5 to increased the frictional force between stirring rod 5 and the pearl powder, compared 5 smooth surfaces of original stirring rod, improved the effect that stirring rod 5 stirred the pearl powder, make its motion amplitude of pearl powder obtain the increase under the effect of stirring rod 5, further improved the quality of pearl powder in feed cylinder 2.

As an embodiment of the invention, the end of the stirring rod 5 is fixedly connected with a baffle plate 52; the end surface of the baffle plate 52 is arranged in parallel with the end surface of the vertical plate 3; during the use, riser 3 drives 5 motion in-process of stirring rod, and stirring rod 5 drives the baffle 52 motion that links firmly, has increased the area of contact of stirring rod 5 with the pearl powder through baffle 52, compares original single stirring rod 5 and stirs the words, and baffle 52 can drive more pearl powder motion for the effect of pearl powder further obtains the reinforcing in stirring feed cylinder 2 of stirring rod 5, further prevents the pearl powder caking in feed cylinder 2.

As an embodiment of the present invention, the edge of the baffle plate 52 is twisted to the elastic plate 54 by the torsion spring 53; the end surface of the elastic plate 54 is parallel to the end surface of the baffle plate 52 under the action of the torsion spring 53; during the use, the stirring rod 5 drives baffle 52 motion in-process, baffle 52 can drive the bullet board 54 motion of wrench joint, bullet board 54 can produce the resistance effect in feed cylinder 2 internal motion, make bullet board 54 can round baffle 52 the edge to the opposite direction wrench movement with the direction of motion, staff's rethread controller control No. two motor 23 stall, thereby make bullet board 54 recover under the effect of torsional spring 53, bullet board 54 resumes original state in-process can get rid of pearl powder around, make pearl powder get rid of on the inner wall of feed cylinder 2 under the effect of bullet board 54, further make pearl powder kibbling, still have the effect that prevents the pearl powder caking in the feed cylinder 2 simultaneously.

As an embodiment of the present invention, the end surface of the baffle 52 is fixedly connected with a fin 55; the fin 55 is vertical to the end surface of the baffle 52, and two end surfaces of the fin 55 face the corresponding elastic plates 54; the fins 55 are arranged in a triangular shape; during the use, in the baffle 52 motion process is driven to the stirring rod 5, the fin 55 motion that the baffle 52 can drive the link firmly to reach the effect of shunting the pearl powder through fin 55, make the pearl powder quick shunt to springboard 54 from fin 55 around, make the pearl powder's of gathering around springboard 54 volume obtain increasing, further improved springboard 54's availability factor.

As an embodiment of the present invention, an elastic cord 56 is fixedly connected to one end surface of the elastic plate 54; the end part of the elastic rope 56 is fixedly connected with a disc 57; the end surface of the disc 57 is arranged towards the elastic cord 56; during the use, baffle 52 drives the elasticity board 54 motion in-process of wrench joint, elasticity board 54 can drive the motion of stretch cord 56, stretch cord 56 can drive the motion of the disc 57 that links firmly, thereby make elasticity board 54 drive disc 57 motion through stretch cord 56, disc 57 produces the resistance effect in the motion process, make disc 57 produce a reaction force to stretch cord 56, stretch cord 56 receives disc 57 pulling and can lengthen, elasticity board 54 after the stop motion, stretch cord 56 can stimulate disc 57 and be close to elasticity board 54 motion, thereby make disc 57 drive pearl powder and bullet board 54 around take place the striking, the crushing effect of pearl powder has further been improved, still make elasticity board 54 receive the striking after-producing to rock simultaneously, make elasticity board 54 drive pearl powder motion around, the stirring effect of pearl powder has been improved, make the difficult caking of pearl powder.

As an embodiment of the present invention, the edge of the disc 57 is provided with a crimp; the crimp is disposed toward bungee cord 56; during the use, during the stretch cord 56 drove disc 57 motion process, through being provided with the crimp with the edge of disc 57 to increased the area of contact of disc 57 with the pearl powder, makeed disc 57 can drive more pearl powder motions, improved the stirring effect to the pearl powder in feed cylinder 2.

As an embodiment of the present invention, the edge of the disk 57 is provided with a second protrusion 58; the second bulges 58 are uniformly distributed around the disc 57, and the second bulges 58 are arranged in a conical shape; during the use, the stretch cord 56 pulling disc 57 is close to the diving board 54 in-process, is provided with No. two protruding 58 through the edge at disc 57 to reduced disc 57 and diving board 54's area of contact, and then increased disc 57 striking diving board 54's dynamics, make diving board 54 receive the shake after the vibrations range increase, further improved diving board 54's practical application effect.

When in use, a worker starts the controller to control the first motor 44 to rotate, the first motor 44 drives the fixedly connected rotating shaft 42 to rotate, so that the rotating shaft 42 drives the blade 43 to rotate, the worker dries special-shaped pearls and then enters the screen box 4 along the feeding hole 41, the rotating blade 43 can collide with the pearls, the pearls are in powder form after being collided, the pearls flow out along meshes of the screen box 4, one part of pearl powder flowing out from the meshes can flow along the inner wall of the box body 1, the other part can fall on the inclined plate 13, the pearl powder on the inner wall of the box body 1 and the pearl powder on the inclined plate 13 can be vibrated by driving the whole box body 1 after being collided with the pearl powder, the pearl powder flows out along the discharging hole 11 under the vibration effect, the pearl powder can not remain on the inner wall of the box body 1, the pearl powder can not be wasted, the pearl powder flowing out, after the feed cylinder 2 is filled with pearl powder, the first motor 44 is turned off to stop the pearl powder from flowing out of the discharge port 11, the pearl powder in the feed cylinder 2 is poured into the stirring kettle, and the second motor 23 drives the fixedly connected gear 24 to rotate because the residual pearl powder in the feed cylinder 2 can cause resource waste, so that the engaged annular strip 22 is driven by the gear 24 to rotate along the outer wall of the charging barrel 2, the rotation of the annular strip 22 drives the vertical plate 3 to rotate by the L-shaped rod 25, so that the vertical plate 3 scrapes the inner wall and the bottom of the charging barrel 2 under the action of the second motor 23, so that the pearl powder in the charging barrel 2 is stuck on the vertical plate 3, after the working personnel downwards puts the opening of the charging barrel 2, the scraping block 32 slides along the sliding strip 31 under the action of gravity, therefore, the pearl powder on the two end surfaces of the vertical plate 3 is scraped by the scraping block 32, so that the pearl powder in the charging barrel 2 can be poured out; when the motor drives the vertical plate 3 to move, the vertical plate 3 can drive the knocking block 34 to move, when the knocking block 34 moves to the inner wall of the material cylinder 2 without the first rectangular groove 26, the knocking block 34 is abutted to the inner wall of the material cylinder 2 under the elastic action of the spring 35, when the knocking block 34 moves to the inner wall with the first rectangular groove 26, the knocking block 34 is clamped in the first rectangular groove 26 under the elastic action of the spring 35, in the process that the knocking block 34 is clamped in the first rectangular groove 26, the knocking block 34 can collide with the groove bottom of the first rectangular groove 26, the material cylinder 2 vibrates after being impacted, pearl powder in the material cylinder 2 falls off more quickly under the vibration action, and the chamfering is arranged at one end, close to the material cylinder 2, of the knocking block 34, so that the stability of the vertical plate 3 for driving the knocking block 34 to rotate is ensured; the knocking block 34 is impacted with the bottom of the first rectangular groove 26 under the action of the spring 35, the deeper the first rectangular groove 26 is in the stroke range of the knocking block 34, the longer the distance between the knocking block 34 and the bottom of the first rectangular groove 26 is, and the larger the impact force of the knocking block 34 on the bottom of the first rectangular groove 26 is, the different impact forces generated by the impact of the two adjacent first rectangular grooves 26 are caused by the different groove depths, so that the different vibration amplitudes generated by the impact of the charging barrel 2 are caused, the more quickly the pearl powder in the charging barrel 2 falls under the action of different vibration forces, and the falling efficiency of the pearl powder in the charging barrel 2 is further improved; in the process that the pearl powder at the discharge port 11 falls into the feed cylinder 2, the motor drives the vertical plate 3 to move, and the vertical plate 3 can drive the fixedly connected stirring rod 5 to move, so that the pearl powder in the feed cylinder 2 cannot generate caking under the stirring action of the stirring rod 5, the quality of the pearl powder is further improved, and the preparation effect of the pearl powder sun cream is improved; the first bulge 51 is arranged on the stirring rod 5, so that the friction force between the stirring rod 5 and pearl powder is increased, compared with the original smooth surface of the stirring rod 5, the effect of the stirring rod 5 for stirring the pearl powder is improved, the movement amplitude of the pearl powder is increased under the action of the stirring rod 5, and the quality of the pearl powder in the charging barrel 2 is further improved; in the process that the vertical plate 3 drives the stirring rod 5 to move, the stirring rod 5 drives the fixedly connected baffle plate 52 to move, the contact area between the stirring rod 5 and pearl powder is increased through the baffle plate 52, compared with the original single stirring rod 5, the baffle plate 52 can drive more pearl powder to move, and the effect of stirring the pearl powder in the feed cylinder 2 by the stirring rod 5 is further enhanced; in the process that the stirring rod 5 drives the baffle plate 52 to move, the baffle plate 52 can drive the twisted elastic plate 54 to move, the elastic plate 54 can generate a resistance effect when moving in the charging barrel 2, so that the elastic plate 54 can twist around the edge of the baffle plate 52 towards the direction opposite to the moving direction, and a worker controls the second motor 23 to stop rotating through the controller, so that the elastic plate 54 recovers under the action of the torsion spring 53, the elastic plate 54 can throw away the surrounding pearl powder when recovering the original state, the pearl powder is thrown onto the inner wall of the charging barrel 2 under the action of the elastic plate 54, the pearl powder is further crushed, and meanwhile, the effect of preventing the pearl powder in the charging barrel 2 from caking is also achieved; in the process that the stirring rod 5 drives the baffle plate 52 to move, the baffle plate 52 can drive the fixedly connected fin plate 55 to move, so that the pearl powder is divided by the fin plate 55, the pearl powder is quickly divided to the elastic plate 54 from the periphery of the fin plate 55, the amount of the pearl powder gathered around the elastic plate 54 is increased, and the use efficiency of the elastic plate 54 is further improved; in the process that the baffle 52 drives the twisted elastic plate 54 to move, the elastic plate 54 drives the elastic rope 56 to move, the elastic rope 56 drives the fixedly connected disc 57 to move, so that the elastic plate 54 drives the disc 57 to move through the elastic rope 56, the disc 57 generates a resistance action in the moving process, the disc 57 generates a reaction force on the elastic rope 56, the elastic rope 56 is pulled by the disc 57 to elongate, after the elastic plate 54 stops moving, the elastic rope 56 pulls the disc 57 to move close to the elastic plate 54, so that the disc 57 drives the surrounding pearl powder to collide with the elastic plate 54, the crushing effect of the pearl powder is further improved, meanwhile, the elastic plate 54 is also vibrated after being collided, so that the elastic plate 54 drives the surrounding pearl powder to move, the stirring effect of the pearl powder is improved, and the pearl powder is not easy to agglomerate; in the process that the elastic cord 56 drives the disc 57 to move, the edge of the disc 57 is provided with the bent edge, so that the contact area of the disc 57 and pearl powder is increased, the disc 57 can drive more pearl powder to move, and the stirring effect of the pearl powder in the charging barrel 2 is improved; in the process that the elastic rope 56 pulls the disc 57 to be close to the elastic plate 54, the second bulge 58 is arranged on the edge of the disc 57, so that the contact area between the disc 57 and the elastic plate 54 is reduced, the force of the disc 57 striking the elastic plate 54 is increased, the shaking amplitude of the elastic plate 54 after being vibrated is increased, and the actual application effect of the elastic plate 54 is further improved.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A preparation method of pearl powder sun cream is characterized in that: the method comprises the following steps:

s1: pretreatment: debugging each element in the grinding device by a worker, and then removing impurities and drying each element of the grinding device; cleaning, sterilizing and drying the special-shaped pearls;

s2: grinding pearls: pouring special-shaped pearls along a feeding hole (41) in a grinding device, driving a blade (43) to crush the pearls by a first motor (44) to form pearl powder, enabling the pearl powder to sequentially pass through meshes and a discharging hole (11) and flow into a charging barrel (2), obliquely pouring the charging barrel (2) into a stirring kettle by a worker, driving a vertical plate (3) by a second motor (23) to scrape the bottom and the inner wall of the charging barrel (2), scraping two end faces of the vertical plate (3) by a scraping block (32) under the action of gravity, and pouring the pearl powder in the charging barrel (2) into the stirring kettle under the action of the vertical plate (3) and the scraping block (32);

s3: mixing and forming: cleaning Aloe, sterilizing, oven drying, grinding into paste, adding Aloe, white oil, water, essence and antiseptic into stirring kettle, controlling the temperature of the stirring kettle at 25-35 deg.C and air pressure at 3-5MPa, stirring for 1-2 hr, and taking out to obtain Margarita powder sunscreen cream;

wherein, the grinding device used in S1-S2 comprises a box body (1), a charging barrel (2), a vertical plate (3) and a controller; an opening is formed in the upper portion of the box body (1), a discharge hole (11) is formed in the lower portion of the box body (1), and the discharge hole (11) is circular; the lower part of the box body (1) is also fixedly connected with a supporting leg (12); the support legs (12) are symmetrically distributed on two sides of the discharge hole (11); a sieve box (4) is fixedly connected between the two inner walls of the box body (1); the cross section of the screen box (4) is in a water drop shape, a feed inlet (41) is formed in the upper portion of the screen box (4), meshes are formed in the outer wall of the screen box (4), and a rotating shaft (42) is rotatably connected between the two inner walls of the screen box (4); the outer wall of the rotating shaft (42) is rotatably connected with a blade (43); the blades (43) are uniformly distributed on the outer wall of the rotating shaft (42); a first motor (44) is mounted on the outer wall of the sieve box (4); the output shaft of the first motor (44) is connected with one end of the rotating shaft (42); sloping plates (13) are fixedly connected to the two inner walls of the box body (1); one end of the inclined plate (13) is arranged close to the discharge hole (11), and an included angle is formed between the end surface of the inclined plate (13) and the horizontal plane; a charging barrel (2) is arranged right below the discharge hole (11); the outer wall of the charging barrel (2) is fixedly connected with a handle (21), and the outer wall of the charging barrel (2) is rotatably connected with an annular strip (22); the edge of the annular strip (22) is provided with a tooth shape; a second motor (23) is arranged on the outer wall of the charging barrel (2); the output shaft of the second motor (23) is connected with a gear (24); the gear (24) engages the edge of the annular strip (22); the upper end of the annular strip (22) is provided with an L-shaped rod (25); one end of the L-shaped rod (25) extends to the center of the charging barrel (2), and one end of the L-shaped rod (25) is fixedly connected with a vertical plate (3); the vertical plate (3) is positioned inside the charging barrel (2); the lower end of the vertical plate (3) is in contact with the bottom of the charging barrel (2), one side of the vertical plate (3) is in contact with the inner wall of the charging barrel (2), and two end faces of the vertical plate (3) are fixedly connected with sliding strips (31); the sliding strip (31) is connected with the scraping block (32) in a sliding manner; the controller is used for controlling the grinding device to automatically operate.

2. The preparation method of the pearl powder sunscreen cream according to claim 1, which is characterized in that: a first rectangular groove (26) is formed in the inner wall of the charging barrel (2); the first rectangular grooves (26) are uniformly distributed on the inner wall of the charging barrel (2); a second rectangular groove (33) is formed in one side of each vertical plate (3); the second rectangular groove (33) is connected with a knocking block (34) in a sliding mode, and a spring (35) is arranged in the second rectangular groove (33); one end of the spring (35) is connected with the bottom of the second rectangular groove (33), and the other end of the spring is connected with the knocking block (34); one end of the knocking block (34) close to the charging barrel (2) is provided with a chamfer, and the knocking block (34) can be clamped in the first rectangular groove (26) under the driving of the vertical plate (3).

3. The preparation method of the pearl powder sunscreen cream according to claim 2, characterized in that: the groove depth between two adjacent first rectangular grooves (26) is different.

4. The preparation method of the pearl powder sunscreen cream according to claim 3, characterized in that: the other side of the vertical plate (3) is fixedly connected with a stirring rod (5); the stirring rods (5) are uniformly distributed on the other side of the vertical plate (3); the stirring rod (5) is Y-shaped.

5. The preparation method of the pearl powder sunscreen cream according to claim 4, characterized in that: a first bulge (51) is arranged on the stirring rod (5); the first bulges (51) are semicircular, and the first bulges (51) are randomly distributed on the surface of the stirring rod (5).

6. The preparation method of the pearl powder sunscreen cream according to claim 5, characterized in that: the end part of the stirring rod (5) is fixedly connected with a baffle (52); the end face of the baffle (52) is parallel to the end face of the vertical plate (3).

7. The preparation method of the pearl powder sunscreen cream according to claim 6, characterized in that: the edge of the baffle plate (52) is twisted with the elastic plate (54) through a torsion spring (53); the end face of the elastic plate (54) is parallel to the end face of the baffle plate (52) under the action of the torsion spring (53).

8. The preparation method of the pearl powder sunscreen cream according to claim 7, characterized in that: the end surface of the baffle (52) is fixedly connected with a fin plate (55); the fin plates (55) are vertical to the end surfaces of the baffle plates (52), and the two end surfaces of the fin plates (55) face the corresponding elastic plates (54); the fins (55) are arranged in a triangular shape.

9. The preparation method of the pearl powder sunscreen cream according to claim 8, characterized in that: an elastic rope (56) is fixedly connected to one end face of the elastic plate (54); the end part of the elastic rope (56) is fixedly connected with a disc (57); the end face of the disc (57) is arranged towards the elastic rope (56).

10. The preparation method of the pearl powder sunscreen cream according to claim 9, characterized in that: the edge of the disc (57) is provided with a bent edge; the crimp is disposed toward the bungee cord (56).

11. The preparation method of the pearl powder sunscreen cream according to claim 10, characterized in that: a second bump (58) is arranged on the edge of the disc (57); the second bulges (58) are uniformly distributed on the periphery of the disc (57), and the second bulges (58) are arranged in a conical shape.